KR20180138411A - Information output apparatus - Google Patents

Abstract

One embodiment of the present invention relates to an apparatus for outputting information having at least one information output unit. The information output unit starts the apparatus for outputting the information, comprising: a first base; a second base disposed to face the first base and having a penetration unit; a coil unit disposed between the first and second bases and having a space therein; a magnetic force unit disposed adjacent to a coil member; a motion unit disposed between the first base and the second base and disposed between the coil unit and the second base; and a display unit connected to the motion unit and formed in a protruded form from the motion unit, and being arranged to be perceived by a user at a position corresponding to the penetration unit of the second base according to movement of the motion unit.

Description

Information output apparatus

Embodiments of the present invention relate to an information output apparatus.

Users can recognize information in a variety of ways. Various types of information output devices are used for this purpose.

For example, a visual information output apparatus using printed matter, an audible information output apparatus using sound, and the like are used.

In particular, in recent years, information output devices including electronic technologies have been widely used due to an increase in the amount of information and technological development, and a display device having a large number of pixels is often used as a visual information output device.

However, in the case of such a display device, various circuits and the like are built in, which reduces the manufacturability and inconvenience of control.

On the other hand, various forms of information output are required due to technological development and diversification of lifestyle.

For example, various information output devices may be required depending on the situation of each user, and in particular, a user with a certain sense of weakness is required to output information through a tactile sense, for example, when the visual ability is weak or absent. There is a limitation in improving the convenience of the user through the improvement of the information output device because there is a difficulty in easily controlling the information output through the tactile sense and stably driving the information.

Embodiments of the present invention provide an information output device with improved durability and improved user's convenience.

One embodiment of the present invention relates to an information output apparatus including at least one information output unit, wherein the information output unit includes a first base, a second base disposed to face the first base and having a penetrating portion, A coil portion disposed between the first and second bases and arranged to have a space therebetween; a magnetic force portion disposed adjacent to the coil member; a magnetic portion disposed between the first and second bases, And the second base, and the second base, and the second base, and the first base, the second base, and the second base. And an information output apparatus including the arranged expression unit.

In this embodiment, the magnetic force portion can move in a region overlapping with a space inside the coil portion.

In this embodiment, an intermediate member may be provided between the second base and the motion unit so as not to restrict the movement of the presentation unit.

In this embodiment, the buffer layer may be formed between the first base and the coil part.

In this embodiment, the magnetic force portion, the motion portion, and the expression portion can simultaneously exercise.

In this embodiment, the moving part may be formed to contain a magnetic material in at least one area.

In this embodiment, the moving part may include a body member and a connecting member connected to the body member and connected to the magnetic force part.

The support portion may be formed so as to be connected to a surface of the movement portion that is opposite to the surface connected to the expression portion, and at least one region of the support portion may be disposed to correspond to a space inside the coil portion .

In the present embodiment, the support portion may have a space portion therein, and the magnetic force portion may be disposed in the space portion of the support portion.

In the present embodiment, the magnetic force portion may be disposed so as to overlap with one region of the space portion of the support portion and overlap with another region.

In this embodiment, when the motion part is in motion, the support part can move together with the motion part.

In the present embodiment, the information output apparatus may include a plurality of information output units, and the plurality of information output units may be arranged to be spaced apart from each other in one direction or another direction.

Other aspects, features, and advantages will become apparent from the following drawings, claims, and detailed description of the invention.

The information output apparatus according to the present embodiment can improve the durability and the user's convenience.

1 is a perspective view schematically showing an information output apparatus according to an embodiment of the present invention.
2 is a cross-sectional view taken along the line II-II in FIG.
FIGS. 3A and 3B are views for explaining the operation of the information output apparatus of FIG. 1 by way of example.
4 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
Fig. 5 is a plan view for explaining one area of Fig. 4. Fig.
Fig. 6 is a modification of Fig.
7 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
8 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
9 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
10 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
11 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.
12 is a perspective view schematically showing an information output apparatus according to another embodiment of the present invention.
13 is a cross-sectional view taken along the line X-X in Fig.
14 is a schematic exploded perspective view of one information output unit of the information output apparatus of Fig.
15 is a partial cross-sectional perspective view for explaining one area of Fig.
16A and 16B are views for explaining the operation of the information output apparatus of FIG. 12 as an example.
Figs. 17A and 17B are views for explaining the operation of the modified example of the information output apparatus of Fig. 12 by way of example.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. The effects and features of the present invention and methods of achieving them will be apparent with reference to the embodiments described in detail below with reference to the drawings. However, the present invention is not limited to the embodiments described below, but may be implemented in various forms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding components throughout the drawings, and a duplicate description thereof will be omitted .

In the following embodiments, the terms first, second, and the like are used for the purpose of distinguishing one element from another element, not the limitative meaning.

In the following examples, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

In the following embodiments, terms such as inclusive or possessive are intended to mean that a feature, or element, described in the specification is present, and does not preclude the possibility that one or more other features or elements may be added.

In the drawings, components may be exaggerated or reduced in size for convenience of explanation. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, and thus the present invention is not necessarily limited to those shown in the drawings.

In the following embodiments, the x-axis, the y-axis, and the z-axis are not limited to three axes on the orthogonal coordinate system, and can be interpreted in a broad sense including the three axes. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.

If certain embodiments are otherwise feasible, the particular process sequence may be performed differently from the sequence described. For example, two processes that are described in succession may be performed substantially concurrently, and may be performed in the reverse order of the order described.

FIG. 1 is a perspective view schematically showing an information output apparatus according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along a line II-II in FIG.

Referring to Figs. 1 and 2, the information output apparatus 100 of the present embodiment includes at least one information output unit IU1.

That is, although one information output unit is shown in FIG. 1, the information output apparatus 100 may include two or three or more information output units as an alternative embodiment.

That is, the information output apparatus 100 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics.

For convenience of explanation, one information output unit IU1 will be described as shown in FIG.

The information output unit IU1 may include a coil part 120, a magnetic force part 170, a moving part 110, a presentation part 130, a first base 101 and a second base 102. [

A power supply unit (not shown) may be connected to the coil unit 120, and a magnetic field may be formed around the coil unit 120 when a current flows through the coil unit 120.

The coil part 120 may have various shapes, for example, the coil part 120 may have a shape in which a plurality of circuit wires are wound, and the number of times of winding can be variously controlled.

The coil part 120 may be formed in a shape having a space 120a therein, for example, the coil part 120 may have a space 120a in a coiled shape.

The magnetic force portion 170 may be disposed adjacent to the coil portion 120 so that when a current flows in the coil portion 120 and a magnetic field is generated around the coil portion 120, For example, you can get enough power to exercise.

The magnetic force portion 170 may have various configurations and may be arranged to overlap with the space 120a of the coil portion 120 and may be arranged to overlap with the space 120a of the coil portion 120 at a certain point, As shown in FIG.

One portion of the magnetic force portion 170 may overlap with the space 120a of the coil portion 120 when the magnetic force portion 170 is moved by a magnetic field around the coil portion 120. [

The moving part 110 may be arranged to be connected to the magnetic part 170. As described above, the magnetic force unit 170 can receive force by a magnetic field generated around the coil unit 120. The motion unit 110 is connected to the magnetic force unit 170 to move together with the magnetic force unit 170 can do.

The moving part 110 may have various shapes, and may be formed to have a width wider than the magnetic part 170 in at least one area as an alternative embodiment.

The moving part 110 may have various materials, and may include a resin, for example.

As another example, the motion part 110 may contain a magnetic material and may include an alloy material of iron, nickel, or stainless steel series.

When the moving part 110 contains a magnetic material, the magnetic part 170 is connected to the magnetic part 170 to improve the efficiency of motion during the movement due to the magnetic field around the coil part 120.

The expression unit 130 may be formed to be connected to the motion unit 110. For example, the expression unit 130 may have a shape protruding in one direction from the motion unit 110. As a specific example, the expression unit 130 may have a column shape in one area. The edge of the expression unit 130, that is, the area of the expression unit 130 far from the motion unit 110, can be processed to have a curved surface.

The expression unit 130 may be connected to the motion unit 110 to move together with the motion of the motion unit 110. For example, the expression unit 130 can move in one direction along the length direction and in the opposite direction.

The expression unit 130 may include various materials, and may be formed of an insulating material as a light and durable material. For example, a resin-based organic material. As another example, an inorganic material such as a ceramic material may be included.

The coil part 120, the magnetic part 170 and the moving part 110 may be disposed between the first base 101 and the second base 102. The expression part 130 may be disposed between the first base 101 and the second base 102, One region may be disposed between the first base 102 and the second base 102, and the other region may be disposed to overlap with the second base 102.

The coil base 120 is disposed on the first base 101 so that the first base 101 can support the coil base 120. For example, the coil part 120 is disposed to be in contact with the first base 101, a current flows through the coil part 120, and a magnetic field is generated. When the magnetic part 170 moves, It is possible to maintain the state of being in contact with the base 101.

As an alternative embodiment, the magnetic part 170 and the coil part 120 during the movement of the moving part 110 are in contact with the first base 101 and can maintain this contact state, Can be fixed. Various fixation members can be used to stably couple the coil section 120 to the first base 101 and adhesives or welds can be used and the first base 101 and the coil section 120 are each coupled May be formed.

As an alternative embodiment, a buffer layer may be formed between the first base 101 and the coil part 120.

The magnetic force portion 170 may be spaced apart from the first base 101 by an interval L when the magnetic force portion 170 is disposed on the first base 101. [ That is, the magnetic force unit 170 may have a minimum distance L between the magnetic force unit 170 and the first base 101 during exercise.

The first base 101 may contain various materials, for example, a magnetic material, and may include an alloy material of iron, nickel, or stainless steel series.

The first base 101 contains a magnetic substance and improves the efficiency of the movement of the magnetic portion 170 in the direction toward the first base 101 during the movement of the magnetic force portion 170, The power consumption of the output device can be reduced.

The second base 102 is disposed so as to face the first base 101. The second base 102 may include a penetrating portion 102a and the indicating portion 130 may move through the penetrating portion 102a. In other words, the expression unit 130 connected to the motion unit 110 through the motion of the motion unit 110 can move in one direction or the opposite direction. At this time, the expression unit 130, which protrudes through the penetration unit 102a to the outside of the second base 102 And the like.

The penetration portion 102a of the second base 102 may be separated from the expression unit 130 or may be spaced apart from at least one region to smooth the movement of the expression unit 130. [

The width of the moving part 110 in at least one direction may be greater than the width of the through part 102a of the second base 102. [ As another example, the moving part 110 may have a larger area than the penetrating part 102a of the second base 102. [

At least one region of the motion unit 110 may have a region overlapped with the second base 102 and may include regions of the motion unit 110 on both sides of the presentation unit 130, As a specific example, a region around the expression unit 130 in the region of the motion unit 110 may overlap with the second base 102.

The gap between the moving part 110 and the second base 102 can be narrowed through the movement of the moving part 110 in one direction, for example, with reference to FIG. 2, and the movement in the opposite direction, for example, The gap between the moving part 110 and the second base 102 may be distanced by a downward movement with reference to FIG.

Movement of the moving part 110 through the second base 102, for example, movement in the direction toward the second base 102 can be restricted. That is, the protrusion of the moving part 110 through the penetration part 102a of the second base 102 may be restricted.

An intermediate member (not shown) may be further formed between the second base 102 and the moving part 110 as an alternative embodiment.

The second base 102 may contain a variety of materials, for example, magnetic materials, and may include alloying materials of the iron, nickel, or stainless steel series.

When the second base 102 contains a magnetic material and the above-mentioned motion part 110 contains a magnetic material, the motion of the motion part 110 in one direction, that is, The efficiency can be improved and the power consumption of the information output apparatus can be reduced.

For example, the second base 102 and the moving part 110 may contain a magnetic material such as iron, nickel, and the moving part 110 may be connected to the magnetic part 170 to have stronger magnetism. In this case, the moving part 110 interacts with the second base 102 when the moving part 110 ascends on the basis of FIG. 2, so that the moving part 110 can contact the second base 102 due to, for example, The motion unit 110 can be kept in contact with the second base 102 to reduce the power consumption of the information output apparatus.

Although not shown, when the information output apparatus includes a plurality of information output modules, the first base or the second base may be formed to extend to correspond to the plurality of information output modules.

As an alternative embodiment, the information output apparatus 100 of the present embodiment may further include a cover unit 190. FIG. The cover portion 190 may be disposed to cover the upper portion of the second base 102 and may be disposed to face the opposite surface of the surface of the second base 102 facing the movement portion 110 have. The cover portion 190 may be arranged to protect the second base 102 and the members below it.

The cover part 190 may have a penetration part 190a corresponding to the expression part 130 when the expression part 130 is in motion.

FIGS. 3A and 3B are views for explaining the operation of the information output apparatus of FIG. 1 by way of example.

As shown in FIGS. 3A and 3B, the presentation unit 130 can perform a movement in one direction and the opposite direction, for example, up and down movement.

The states of FIGS. 3A and 3B may be such that different currents flow through the coil section 120. FIG. For example, in FIG. 3A, no current flows in the coil section 120, and in FIG. 3B, a current flows in the coil section 120.

Specifically, when a current flows through the coil part 120 through a power source (not shown), a magnetic field is formed around the coil part 120. The magnetic part 170 can move due to the magnetic field, And the expression unit 130 is moved in the same direction as the direction of the motion unit 110. In this case,

A predetermined distance d1 may exist between the moving part 110 and the upper surface of the coil part 120 due to the rise of the moving part 110 as shown in FIG.

Also, the distance L between the magnetic portion 170 and the first base 101 may increase as shown in FIG. 3B through the motion of the magnetic force portion 170. 0

In this case, when the moving part 110 connected to the magnetic part 170 includes the magnetic material, the efficiency of motion of the moving part 110 can be improved. In addition, when the second base 102 contains the magnetic material It is possible to improve the efficiency of movement through the magnetic force between the moving part 110 and the second base 102 and to reduce the power consumption of the information output apparatus 100.

The magnitude and speed of the motion of the expression unit 130 can be controlled in various ways, for example, by controlling the intensity of the current flowing through the coil unit 120.

The information output apparatus 100 of the present embodiment may include one or more information output units, and the presentation unit of the information output unit may be connected to the motion unit and move in one direction or the opposite direction. Through the expression unit, various information that the user can perceive can be outputted.

For example, the information output apparatus 100 of the present embodiment may be an information output apparatus in which the user senses the surface of the presentation unit through a tactile angle when the presentation unit protrudes. More specifically, it may be, for example, information output in the form of braille output.

As an alternative embodiment, the information output apparatus 100 may be a time-sensitive information output when the user senses the time when the presentation unit protrudes. This visual effect can be increased particularly when the color is formed on one side of the expression part, for example, the upper side, or light is generated on one side of the expression part.

Accordingly, the information output apparatus of this embodiment can output information to the user, and as an alternative embodiment, when the information output apparatus of this embodiment includes a plurality of information output units, various information can be output to the user.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, it is possible to effectively support the coil portion including the first base, and as another example, the first base can include the magnetic material, thereby improving the efficiency of the movement of the magnetic portion.

In addition, the range of motion of the motion part including the second base can be eliminated, and as another example, the second base can include the magnetic material, thereby improving the efficiency of motion of the motion part.

FIG. 4 is a sectional view schematically showing an information output apparatus according to another embodiment of the present invention, and FIG. 5 is a plan view for explaining an area of FIG.

Referring to FIG. 4, the information output apparatus 200 of the present embodiment includes at least one information output unit IU1. That is, although one information output unit is shown in Fig. 4, the information output apparatus 200 may include two or three or more information output units as an alternative embodiment.

That is, the information output apparatus 200 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in FIG.

The information output unit IU1 may include a coil part 220, a magnetic force part 270, a moving part 210, a presentation part 230, a first base 201 and a second base 202. [

A power supply unit (not shown) may be connected to the coil unit 220, and a magnetic field may be formed around the coil unit 220 when a current flows through the coil unit 220.

The coil part 220 may be formed in a shape having a space 220a therein, for example, the coil part 220 may have a space 220a inside as a coiled shape.

The magnetic force portion 270 may be arranged adjacent to the coil portion 220 and when a current flows in the coil portion 220 to generate a magnetic field around the coil portion 220, For example, you can get enough power to exercise.

The magnetic force part 270 may have various configurations and may be arranged to overlap with the space 220a of the coil part 220 and may be arranged to overlap the space 220a of the coil part 220 at a certain point, As shown in FIG.

One portion of the magnetic force portion 270 may overlap with the space 220a of the coil portion 220 when the magnetic force portion 270 is moved by the magnetic field around the coil portion 220. [

The moving part 210 may be arranged to be connected to the magnetic force part 270. The magnetic force unit 270 may be moved by a magnetic field generated around the coil unit 220. The motion unit 210 may be coupled to the magnetic force unit 270 to move together with the magnetic force unit 270 .

The moving part 210 may include a body member 211, a connecting member 213, and a groove 215. The body member 211 may be formed so as to be connected to the expression unit 230 and to correspond to at least one region on both sides or the periphery of the expression unit 230 and to be out of the expression unit 230. [

The body member 211 may include one area overlapping with the presentation unit 230 and one area beyond the presentation unit 230 without being overlapped.

As an alternative embodiment, the body member 211 may be formed to surround the expression unit 230 as shown in FIG. 5, may have a boundary line of a curve, and may have a boundary line of a shape similar to an arc.

The connecting member 213 may be disposed below the body member 211. [ That is, the connecting member 213 may be disposed between the body member 211 and the magnetic force portion 270 and may be connected to the magnetic force portion 270.

The connecting member 213 may be connected to the body member 211 and may have a bent shape from the body member 211. The connecting member 213 may have a plane shape corresponding to the upper surface of the magnetic force portion 270 and may be in contact with the magnetic force portion 270 therethrough.

The groove 215 may be formed so as to correspond to the opposite surface of the surface of the connecting member 213 facing the magnetic portion 270. The groove 215 may face the expression unit 230 and may receive one area 230a of the expression unit 230. [ The expression unit 230 can be stably fixed.

The moving part 210 may have various materials, and may include a resin as an example.

As another example, motion portion 210 may contain a magnetic material and may include an alloy material of iron, nickel, or stainless steel series.

When the moving part 210 contains a magnetic material, the magnetic part 270 is connected to the magnetic part 270 so that the efficiency of motion during the motion due to the magnetic field around the coil part 220 can be improved.

The expression unit 230 may be formed to be connected to the motion unit 210. For example, the expression unit 230 may have a shape protruding in one direction from the motion unit 210. As a specific example, the expression unit 230 may have a column shape in one area. The edge of the expression unit 230, that is, the area of the expression unit 230 far from the motion unit 210, can be processed to have a curved surface.

The expression unit 230 may be coupled to the motion unit 210 to move together with the motion of the motion unit 210. For example, the expression unit 230 can move in one direction along the length direction and in the opposite direction. As described above, the expression unit 230 has an area accommodated in the groove 215 of the motion unit 210. [ That is, the expression unit 230 includes a receiving area 230a, and the receiving area 230a can be accommodated in the groove 215 as a protruding form.

The expression unit 230 may include various materials, and may be formed of an insulating material as a light and durable material. For example, an inorganic material such as a resin-based organic material or a ceramic material.

The coil unit 220, the magnetic force unit 270 and the motion unit 210 may be disposed between the first base 201 and the second base 202. The expression unit 230 may include a first base 201, One region is disposed between the first base 202 and the second base 202, and the other region is disposed over the second base 202.

The first base 201 may support the coil part 220 by arranging the coil part 220 on the upper part of the first base 201. For example, the coil part 220 is arranged to be in contact with the first base 201, a current flows in the coil part 220, and a magnetic field is generated. When the magnetic part 270 is in motion, The first base 201 and the coil part 220 may be held in contact with each other and an adhesive, welding, or various joining members may be used so as to stably bond the first base 201 and the coil part 220 as an alternative embodiment.

As an alternative embodiment, a buffer layer may be formed between the first base 201 and the coil part 220.

Since the first base 201 is the same as that described in the above-mentioned embodiment, a further detailed description will be omitted.

The second base 202 is disposed so as to face the first base 201. The second base 202 may include a penetrating portion 202a and the indicating portion 230 may move through the penetrating portion 202a. In other words, the expression unit 230 connected to the motion unit 210 through the movement of the motion unit 210 can move in one direction or the opposite direction. At this time, the expression unit 230, which protrudes through the penetration unit 202a to the outside of the second base 202 And the like.

The penetration portion 202a of the second base 202 may be spaced apart from the presentation portion 230 or spaced apart from at least one region to facilitate the movement of the presentation portion 230. [

Since the second base 202 is the same as that described in the above-mentioned embodiment, a further detailed description will be omitted.

As an alternative embodiment, the information output apparatus 200 of the present embodiment may further include a cover unit 290. The cover portion 290 may be disposed to cover the top of the second base 202 and may be disposed to face the opposite side of the plane of the second base 202 that faces the motion portion 210, have. The cover portion 290 may be arranged to protect the second base 202 and the members below it.

The cover portion 290 may have a penetration portion 290a corresponding to the expression portion 230 during exercise of the expression portion 230. [

Fig. 6 is a modification of Fig. As shown in FIG. 6, the moving part 210 'may include a body member 211', a connecting member (not shown), a groove (not shown), and an extending member 240 '. The body member 211 'may be formed so as to be connected to the expression unit 230' and to correspond to at least one region on both sides of the expression unit 230 ', or to surround the expression unit 230'.

The body member 211 'may include one area overlapped with the expression unit 230' and one area that is not overlapped and deviates from the expression unit 230 '.

The elongate member 240 'may be configured to support the body member 211', and may have a shape that is connected to the body member 211 'and extends from the body member 211'.

As shown in FIG. 6, the body member 211 'may be formed so as to protrude from one side of the display unit 230 and a side thereof opposite to the display unit 230', may have a curved boundary line, You can have a borderline.

And the extension member 240 'may be formed to connect one region of this body member 211' with another region, that is, to fill a plurality of regions of the extension member 240 '.

The connecting member (not shown) is disposed between the body member 211 'and the magnetic force portion (not shown) and may be connected to a magnetic force portion (not shown). A detailed description is omitted since it is the same as that described with reference to FIG. The description of the groove (not shown) is also omitted since it is the same as that described with reference to FIG.

In this embodiment, the body member 211 'and the extending member 240' may be formed of different materials. For example, the body member 211 'may contain a magnetic material and may include an alloy material of iron, nickel or stainless steel series. The body member 211 'and the connecting member (not shown) connected to the magnetic force portion may include a magnetic substance, and the body member 211' and the connecting member (not shown) may be integrally formed.

When the body member 211 'contains a magnetic body, it may be connected to the magnetic force portion so that the efficiency of motion during the motion due to the magnetic field around the coil portion may be improved.

The elongated member 240 'may be formed of a lightweight material having excellent durability, and may be formed of, for example, an inorganic insulator or an organic insulator. As a specific example, a resin-based material may be included. As a specific example, the extension member 240 'may be formed of the same material as the expression unit 230' and may be integrally formed with the expression unit 230 '.

The operation of the information output apparatus 200 of this embodiment is almost the same as that described in the above embodiment.

When a current flows through the coil part 220 through a power supply part (not shown), a magnetic field is formed around the coil part 220. Due to the magnetic field, the magnetic part 270 can move, The connected motion part 210 can move and the expression part 230 moves in the same direction as the direction of the motion part 210. [ At this time, the connecting member 213 of the moving part 210 and the magnetic force part 270 are connected to each other so that the expression part 230 is accommodated in the groove 215 in the opposite direction, It is possible to reduce or prevent the abnormal position change such as peeling of the moving part 210 and position change of the moving part 210. [

In this case, when the moving part 210 connected to the magnetic part 270 includes a magnetic material, the efficiency of motion of the moving part 210 can be improved. In addition, when the second base 202 contains a magnetic material The efficiency of motion can be improved through the magnetic force between the moving part 210 and the second base 202 and the power consumption of the information output apparatus 200 can be reduced.

It is also contemplated that the motion portion 210'includes an elongate member 240'and the elongate member 240'includes a material different from the body member 211'or the body member 211'may contain a magnetic material The elongate member 240 'may improve motion efficiency while reducing the weight of the motion portion 210' to include an inorganic or organic insulator, for example, a resin-based material.

The magnitude and speed of movement of the expression unit 230 can be controlled in various ways, for example, by controlling the intensity of the current flowing through the coil unit 220.

The information output apparatus 200 of the present embodiment may be any of various types of information output apparatuses. For example, the information output apparatus 200 may be an information output apparatus that senses the surface of the presentation unit through a tactile sense. have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

7 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.

Referring to Fig. 7, the information output apparatus 300 of the present embodiment includes at least one information output unit IU1. That is, although one information output unit is shown in Fig. 7, the information output apparatus 300 may include two or three or more information output units as an alternative embodiment.

That is, the information output apparatus 300 may include various information output units according to the application, the characteristics of the application product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in Fig.

The information output unit IU1 includes a coil unit 320, a magnetic force unit 370, a moving unit 310, a display unit 330, an intermediate member 350, a first base 301, and a second base 302 .

A power supply unit (not shown) may be connected to the coil unit 320 and the coil unit 320 may have a space 320a therein. For example, the coil unit 320 may have a coiled configuration And may have a space 320a therein.

The magnetic force portion 370 may be disposed adjacent to the coil portion 320 and may be disposed to overlap with the space 320a of the coil portion 320. As a specific example, And may be disposed entirely within the housing 320a.

One portion of the magnetic force portion 370 may be overlapped with the space 320a of the coil portion 320 when the magnetic force portion 370 moves under the force of the magnetic field around the coil portion 320. [

The moving part 310 may be arranged to be connected to the magnetic part 370. The magnetic force unit 370 can be moved by a magnetic field generated around the coil unit 320 and the motion unit 310 can move together with the magnetic force unit 370 and move together with the magnetic force unit 370 .

The moving part 310 may include a body member 311, a connecting member 313, and a groove 315. The moving part 310 may be the same as the moving part 310 of the embodiment of FIG. 4 described above, and the modified example of FIG. 6 may be applied as an alternative embodiment.

The expression unit 330 may be formed to be connected to the motion unit 310. The expression unit 330 may be coupled to the motion unit 310 to move together with the motion of the motion unit 310. The expression unit 330 includes a receiving area 330a and the receiving area 330a can be accommodated in the groove 315 as a protruding form.

The coil part 320, the magnetic force part 370 and the moving part 310 can be disposed between the first base 301 and the second base 302 and the expression part 330 can be disposed between the first base 301 and the second base 302, One region may be disposed between the first base 302 and the second base 302 and the other region may be overlapped with the second base 302.

The coil base 320 is disposed on the first base 301 so that the first base 301 can support the coil base 320. For example, the coil part 320 is arranged to be in contact with the first base 301, a current flows in the coil part 320, and a magnetic field is generated. When the magnetic part 370 moves, The first base 301 and the coil part 320 may be held in contact with the first base 301 and the first base 301 and the coil part 320 may be stably bonded to each other.

As an alternative embodiment, a buffer layer may be formed between the first base 301 and the coil part 320.

Since the first base 301 is the same as that described in the above-mentioned embodiment, detailed description will be omitted.

The second base 302 is arranged to face the first base 301. The second base 302 may include a penetrating portion 302a and the indicating portion 330 may move through the penetrating portion 302a. In other words, the expression unit 330 connected to the motion unit 310 through the movement of the motion unit 310 can move in one direction or the opposite direction. At this time, the expression unit 330, which protrudes through the penetration unit 302a to the outside of the second base 302 And the like.

The penetration portion 302a of the second base 302 may be spaced apart from the presentation portion 330 or spaced apart from at least one region to smooth the movement of the presentation portion 330. [

Since the second base 302 is the same as that described in the above embodiment, further detailed description is omitted.

The intermediate member 350 may be disposed between the second base 302 and the moving part 310. The impact of the second base 302 and the moving part 310 can be reduced through the intermediate member 350 during the movement of the moving part 310. The intermediate member 350 may be formed of various materials, and may be formed of a material having elasticity.

The intermediate member 350 may be formed so as to be in contact with the second base 302 and the moving part 310. The intermediate member 350 may be formed of a material having elasticity, and the thickness of the intermediate member 350 may vary through the movement of the moving unit 310. That is, when the distance between the motion unit 310 and the second base 302 is reduced by the motion of the motion unit 310, the thickness of the intermediate member 350 can be reduced.

As another example, the intermediate member 350 may be formed on the moving part 310 and spaced apart from the second base 302 before the motion of the moving part 310 is performed. As another example, the intermediate member 350 may be formed on the second base 302 and be spaced apart from the moving part 310 before the motion of the moving part 310 is performed.

The intermediate member 350 may have a through portion 350a corresponding to the presentation portion 330 during the exercise of the presentation portion 330. [ The intermediate member 350 may be spaced apart from the presentation unit 330 and may not interfere with the movement of the presentation unit 330.

As an alternative embodiment, the information output apparatus 300 of the present embodiment may further include a cover unit 390. The cover portion 390 may be disposed to cover the top of the second base 302 and may be disposed to face the opposite side of the plane of the second base 302, have. The cover portion 390 can be arranged to protect the second base 302 and members below it.

The cover portion 390 may have a penetration portion 390a corresponding to the expression portion 330 during exercise of the expression portion 330. [

The operation of the information output apparatus 300 of this embodiment is almost the same as that described in the above embodiment.

The information output apparatus 300 of the present embodiment may be various information output apparatuses, for example, an information output apparatus that senses the surface of a presentation unit through a tactile sense, and as another example, have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

In addition, the intermediate member may be formed on the motion portion to reduce or prevent the impact on the motion portion of the motion portion from being transmitted to the motion portion or, as an alternative, to the second base. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

8 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.

Referring to FIG. 8, the information output apparatus 400 of the present embodiment includes at least one information output unit IU1. That is, although one information output unit is shown in Fig. 8, the information output apparatus 400 may include two or three or more information output units as an alternative embodiment.

That is, the information output apparatus 400 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in FIG.

The information output unit IU1 includes a coil part 420, a magnetic force part 470, a moving part 410, a presentation part 430, an intermediate member 450, a support part 460, a first base 401, And may include a base 402.

A power supply unit (not shown) may be connected to the coil unit 420 and the coil unit 420 may have a space 420a therein. For example, the coil unit 420 may have a coiled configuration And may have a space 420a therein.

The magnetic force portion 470 may be disposed adjacent to the coil portion 420 and may be disposed to overlap with the space 420a of the coil portion 420. For example, And may be disposed entirely within the housing 420a.

One portion of the magnetic force portion 470 may overlap with the space 420a of the coil portion 420 when the magnetic force portion 470 moves under the force of the magnetic field around the coil portion 420. [

The moving part 410 may be arranged to be connected to the magnetic part 470. The magnetic force part 470 can be moved under the force generated by the magnetic field generated around the coil part 420 and the moving part 410 can move with the magnetic force part 470 in connection with the magnetic force part 470 .

The moving part 410 may include a body member 411, a connecting member 413, and a groove 415. The moving part 410 may be the same as the moving part 410 of the embodiment of FIG. 4 described above, and the modified example of FIG. 6 may be applied as an alternative embodiment.

The expression unit 430 may be formed to be connected to the motion unit 410. The expression unit 430 may be connected to the motion unit 410 to move together with the motion of the motion unit 410. The expression unit 430 includes a receptive region 430a and the receptive region 430a can be accommodated in the groove 415 as a protruding form.

The support portion 460 may be formed to be connected to the motion portion 410. The support portion 460 may be disposed so as to face the opposite surface of the surface of the moving part 410 facing the presentation part 430. [ The support portion 460 may have a hollow shape and may have a space portion 460a therein. The magnetic portion 470 can be accommodated in the space portion 460a.

The support portion 460 may be arranged to correspond to the space 420a of the coil portion 420. [ That is, in the stopped state of the moving part 410, the supporting part 460 is disposed in the space 420a of the coil part 420, and at least one area of the supporting part 460 during the movement of the moving part 410, And may be disposed in the space 420a.

The moving part 410 is connected to the supporting part 460 so that the moving part 410 can be spaced apart from the coil part 420 with an interval d2. Such an interval d2 during the movement of the moving part 410 may increase. The supporting portion 460 moves together with the magnetic portion 470 during the movement of the moving portion 410 and the supporting portion 460 may be arranged to be spaced apart from the coil portion 420 as an alternative embodiment. The support part 460 can be smoothly moved without being disturbed by the coil part 420 during the movement.

As an alternative embodiment, the support portion 460 may have a hollow column shape elongated in the direction opposite to the expression portion 430 and may be formed on one side of the information output device, for example, an upper surface of a first base 401 .

As an alternative embodiment, one portion of the space portion 460a in the support portion 460 may correspond to the magnetic force portion 470, and the space portion 460a may have a spacing region SA not overlapping the magnetic force portion 470, May exist.

Further, the magnetic force portion 470 may be spaced apart from the first base 401, which will be described later, with an interval L. [ That is, the magnetic force portion 470 may have a distance L as a minimum distance between the magnetic force portion 470 and the first base 401 during exercise.

The support portion 460 may be formed of various materials, and may be formed of a material having excellent durability. For example, the support portion 460 may be formed of an insulating material. For example, the support portion 460 may contain a resin-based organic material. As another example, the support portion 460 may include an inorganic material such as a ceramic material.

The coil part 420, the magnetic force part 470 and the moving part 410 may be disposed between the first base 401 and the second base 402. The expression part 430 may include a first base 401, One region may be disposed between the first base 402 and the second base 402 and the other region may be overlapped with the second base 402.

A coil portion 420 is disposed on an upper portion of the first base 401 so that the first base 401 can support the coil portion 420. For example, the coil part 420 is arranged to be in contact with the first base 401, a current flows in the coil part 420, and a magnetic field is generated. When the magnetic part 470 is moving, The first base 401 and the coil part 420 may be kept in contact with the first base 401 and an adhesive, welding or various joining members may be used as an alternative embodiment so that the first base 401 and the coil part 420 are stably engaged.

As an alternative embodiment, a buffer layer may be formed between the first base 401 and the coil part 420.

Since the first base 401 is the same as that described in the above-mentioned embodiment, detailed description will be omitted.

The second base 402 is disposed so as to face the first base 401. The second base 402 may include a penetrating portion 402a and the indicating portion 430 may move through the penetrating portion 402a. In other words, the expression unit 430 connected to the movement unit 410 through the movement of the movement unit 410 can move in one direction or the opposite direction. At this time, the expression unit 430, which protrudes through the penetration unit 402a to the outside of the second base 402 And the like.

The penetration portion 402a of the second base 402 may be spaced apart from the presentation portion 430 or spaced apart from at least one region to facilitate the movement of the presentation portion 430. [

Since the second base 402 is the same as that described in the above embodiment, further detailed description is omitted.

The intermediate member 450 may be disposed between the second base 402 and the moving part 410. The impact of the second base 402 and the moving part 410 can be reduced through the intermediate member 450 during the movement of the moving part 410. The intermediate member 450 can be formed of various materials and elastic materials.

The intermediate member 450 may be formed to contact the moving part 410. The intermediate member 450 may be disposed to have an interval d3 from the second base 402 to be described later as an alternative embodiment and the interval d3 during the movement of the moving part 410 may be reduced.

In addition, the intermediate member 450 may be in contact with the second base 402 during the movement of the moving part 410. As another alternative embodiment, the intermediate member 450 may be formed of a material having elasticity, and the thickness of the intermediate member 450 may vary through the movement of the moving part 410. [

The intermediate member 450 may be formed so as to be in contact with the moving part 410 and the second base 402 as another embodiment. As another example, the intermediate member 450 may be formed on the second base 402 and be spaced apart from the moving part 410 before the motion of the moving part 410 is performed.

The intermediate member 450 may have a penetration portion 350a corresponding to the expression portion 430 during exercise of the expression portion 430. [ The intermediate member 450 may be spaced apart from the expression unit 430 and may not interfere with the motion of the expression unit 430. [

As an alternative embodiment, the information output apparatus 400 of the present embodiment may further include a cover portion 490. [ The cover portion 490 may be disposed to cover the top of the second base 402 and may be disposed to face the opposite side of the plane of the second base 402, have. The cover portion 490 may be arranged to protect the second base 402 and members below it.

The cover portion 490 may have a penetration portion 490a corresponding to the expression portion 430 during exercise of the expression portion 430. [

The operation of the information output apparatus 400 of this embodiment is almost the same as that described in the above embodiment.

The information output apparatus 400 of the present embodiment may be any of various types of information output apparatuses. For example, the information output apparatus 400 may be an information output apparatus that senses the surface of the presentation unit through a tactile sense. have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, the intermediate member may be formed on the motion part to reduce or prevent the impact from being transmitted to the motion part or the second base during the motion of the motion part. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

In addition, the supporting portion may be formed to be adjacent to the moving portion, and the magnetic force portion may be disposed inside the supporting portion so that the moving direction of the magnetic force portion is uniform. Further, contact between the moving part and the coil part can be restricted through the supporting part. It is possible to control the precise movement of the moving part by restricting the contact with the coil part during the movement of the moving part, and it is possible to reduce or prevent unnecessary movement or jarring of the coil part.

9 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.

Referring to Fig. 9, the information output apparatus 500 of this embodiment includes at least one information output unit IU1. In other words, although one information output unit is shown in Fig. 9, the information output apparatus 500 may include two or three or more information output units as an alternative embodiment. That is, the information output apparatus 500 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in Fig.

The information output unit IU1 includes a coil unit 520, a magnetic force unit 570, a motion unit 510, a presentation unit 530, an intermediate member 550, a support unit 560, a first base 501, And may include a base 502. The information output apparatus 500 of the present embodiment is similar to the embodiment of FIG.

The coil part 520 may have a space 520a. The magnetic portion 570 may be disposed adjacent to the coil portion 520 and the motion portion 510 may be disposed to be connected to the magnetic portion 570 and may include a body member 511, a connecting member 513, and a groove 515, and the expression unit 530 may be formed so as to be connected to the motion unit 510. The support portion 560 may be formed to be connected to the motion portion 510. Other specific explanations are the same as those described above and thus will be omitted.

The coil portion 520, the magnetic force portion 570 and the motion portion 510 may be disposed between the first base 501 and the second base 502 and the expression portion 530 may be disposed between the first base 501 and the second base 502, One region may be disposed between the first base 502 and the second base 502, and another region may be disposed to overlap with the second base 502.

Since the first base 501 is the same as the above-described embodiment, description thereof will be omitted.

The second base 502 is arranged to face the first base 501. The second base 502 may include a penetrating portion 502a and the indicating portion 530 may move through the penetrating portion 502a. In other words, the expression unit 530 connected to the motion unit 510 through the movement of the motion unit 510 can move in one direction or the opposite direction. At this time, the expression unit 530, which protrudes through the penetration unit 502a to the outside of the second base 502 And the like.

The second base 502 can simultaneously function as a cover. For example, the thickness of the second base 502 can be made thicker than that of the first base 501, thereby improving the durability and improving the protection effect.

The penetrating portion 502a of the second base 502 may be spaced apart from the expression unit 530 or may be spaced apart from at least one region to facilitate the movement of the expression unit 530. [

Since the second base 502 is the same as that described in the above embodiment, a further detailed description will be omitted.

The intermediate member 550 may be disposed between the second base 502 and the motion unit 510. The intermediate member 550 may be formed to contact the moving part 510 and the second base 502. As another example, the intermediate member 550 may be disposed on the motion portion 510 and the intermediate member 550 may be disposed so as to be spaced from the second base 502. In the motion of the motion portion 510, . Also, it may be formed on the second base 502 and spaced apart from the moving part 510 before the movement of the moving part 510. The other details of the intermediate member 550 are the same as those described in the above embodiments, and therefore will not be described.

The information output apparatus 500 of the present embodiment may be various types of information output apparatuses. For example, the information output apparatus 500 may be an information output apparatus that senses the surface of the presentation unit through a tactile sense. As another example, have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, the intermediate member may be formed on the motion part to reduce or prevent the impact from being transmitted to the motion part or the second base during the motion of the motion part. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

In addition, the supporting portion may be formed to be adjacent to the moving portion, and the magnetic force portion may be disposed inside the supporting portion so that the moving direction of the magnetic force portion is uniform. Further, contact between the moving part and the coil part can be restricted through the supporting part. It is possible to control the precise movement of the moving part by restricting the contact with the coil part during the movement of the moving part, and it is possible to reduce or prevent unnecessary movement or jarring of the coil part.

It also includes a second base to improve the efficiency of motion of the motion portion and to block or reduce the external force through the second base.

10 is a sectional view schematically showing an information output apparatus according to another embodiment of the present invention.

Referring to FIG. 10, the information output apparatus 600 of the present embodiment includes at least one information output unit IU1. In other words, although one information output unit is shown in Fig. 10, the information output apparatus 600 may include two or more information output units as an alternative embodiment.

That is, the information output apparatus 600 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in FIG.

The information output unit IU1 includes a coil part 620, a magnetic force part 670, a moving part 610, a presentation part 630, an intermediate member 650, a support part 660, a first base 601, And a base 602. The information output apparatus 600 of the present embodiment is similar to the embodiment of FIG.

A power supply unit (not shown) may be connected to the coil unit 620 and a space 620a may be formed therein. The magnetic unit 670 may be disposed adjacent to the coil unit 620, The moving part 610 may be arranged to be connected to the magnetic part 670 and may include a body member 611, a connecting member 613 and a groove 615, The expression unit 630 may be formed to be connected to the motion unit 610. The supporting portion 660 may be formed to be connected to the moving portion 610. Other specific explanations are the same as those described above and thus will be omitted.

A buffer layer 603 may be formed between the first base 601 and the coil part 620. The buffer layer 603 can contact the support portion 460 when the support portion 460 is stopped and reduce or prevent the damage or deformation of the first base 601 due to the support portion 460. [ The buffer layer 603 can be selectively applied to the embodiments described above and the embodiments described later.

The first base 601 and the second base 602 are the same as those described in the above-described embodiment, and thus a further detailed description thereof will be omitted.

The intermediate member 650 may be disposed between the second base 602 and the moving unit 610 so as to be in contact with the second base 602 and the moving unit 610. As another example, the intermediate member 650 may be formed on the second base 602, and the motion member 610 may be formed before the motion of the motion member 610, So as to be spaced apart.

The other detailed descriptions of the intermediate member 650 are the same as those of the above-described embodiments, and thus will not be described.

As an alternative embodiment, the information output apparatus 600 of the present embodiment may further include a cover portion 690. The cover portion 690 may have a penetration portion 690a corresponding to the expression portion 630 during exercise of the expression portion 630. [

The operation of the information output apparatus 600 of this embodiment is almost the same as that described in the above embodiment.

The information output apparatus 600 of the present embodiment may be various types of information output apparatuses. For example, the information output apparatus 600 may be an information output apparatus that senses the surface of the presentation unit through a tactile sense. As another example, have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, the intermediate member may be formed on the motion part to reduce or prevent the impact from being transmitted to the motion part or the second base during the motion of the motion part. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

In addition, the supporting portion may be formed to be adjacent to the moving portion, and the magnetic force portion may be disposed inside the supporting portion so that the moving direction of the magnetic force portion is uniform. Further, contact between the moving part and the coil part can be restricted through the supporting part. It is possible to control the precise movement of the moving part by restricting the contact with the coil part during the movement of the moving part, and it is possible to reduce or prevent unnecessary movement or jarring of the coil part.

Also, a buffer layer may be formed on the first base to reduce damage to the first base.

11 is a cross-sectional view schematically showing an information output apparatus according to another embodiment of the present invention.

Referring to Fig. 11, the information output apparatus 700 of this embodiment includes at least one information output unit IU1. That is, although one information output unit is shown in Fig. 10, the information output apparatus 700 may include two or three or more information output units as an alternative embodiment.

That is, the information output apparatus 700 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics. For convenience of explanation, one information output unit IU1 will be described as shown in FIG.

The information output unit IU1 includes a coil part 720, a magnetic part 770, a moving part 710, a presentation part 730, an intermediate member 750, a support part 760, a first base 701, And a base 702. The information output apparatus 700 of this embodiment is similar to the embodiment of FIG. 8 described above and will be described mainly on the difference.

A power supply unit (not shown) may be connected to the coil unit 720 and a space 720a may be formed therein. The magnetic unit 770 may be disposed adjacent to the coil unit 720, The moving part 710 may be arranged to be connected to the magnetic part 770 and may include a body member 711, a connecting member 713 and a groove 715. The expression unit 730 may be formed to be connected to the motion unit 710. The supporting portion 760 may be formed to be connected to the moving portion 710. Other specific explanations are the same as those described above and thus will be omitted.

Since the first base 701 and the second base 702 are the same as those described in the above-mentioned embodiment, detailed description will be omitted.

A protective portion 707 may be further provided so as to face the first base 701, that is, a surface of the first base 701 facing the magnetic surface 770.

The protection unit 707 can protect the first base 701 from an external shock or foreign object.

The intermediate member 750 may be disposed between the second base 702 and the moving unit 710 so as to be in contact with the second base 702 and the moving unit 710. As another example, the intermediate member 750 may be formed on the second base 702, and the motion member 710 may be formed before the motion of the motion member 710. The intermediate member 750 may be formed as shown in FIG. So as to be spaced apart.

The other detailed descriptions of the intermediate member 750 are the same as those of the above-described embodiments and thus will not be described.

As an alternative embodiment, the information output apparatus 700 of the present embodiment may further include a cover portion 790. [ The cover portion 790 may have a penetration portion 790a corresponding to the expression portion 730 during exercise of the expression portion 730. [

The operation of the information output apparatus 700 of this embodiment is almost the same as that described in the above embodiment.

The information output apparatus 700 of the present embodiment may be various information output apparatuses, for example, an information output apparatus that senses the surface of the presentation unit through a tactile sense, and as another example, have.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, the intermediate member may be formed on the motion part to reduce or prevent the impact from being transmitted to the motion part or the second base during the motion of the motion part. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

In addition, the supporting portion may be formed to be adjacent to the moving portion, and the magnetic force portion may be disposed inside the supporting portion so that the moving direction of the magnetic force portion is uniform. Further, contact between the moving part and the coil part can be restricted through the supporting part. It is possible to control the precise movement of the moving part by restricting the contact with the coil part during the movement of the moving part, and it is possible to reduce or prevent unnecessary movement or jarring of the coil part.

Further, the protective portion may be formed to face one surface of the first base to reduce damage to the first base.

FIG. 12 is a perspective view schematically showing an information output apparatus according to another embodiment of the present invention, FIG. 13 is a sectional view taken along the line X-X of FIG. 12, Fig. 15 is a partial cross-sectional perspective view for explaining one area of Fig. 14. Fig.

12 to 15, the information output apparatus 800 of the present embodiment includes at least one information output unit IU1, IU2 to IU9.

12, there are shown twelve information output units, but the information outputting apparatus 800 may include various numbers of information output units as an alternative embodiment.

That is, the information output apparatus 800 may include various numbers of information output units depending on the application, the characteristics of the applied product, and the user characteristics.

For convenience of explanation, one information output unit IU2 will be described as shown in FIG.

The information output unit IU2 includes a coil portion 820, a magnetic portion 870, a moving portion 810, a presentation portion 830, an intermediate member 850, a support portion 860, a first base 801, And a base 802.

A power supply unit (not shown) may be connected to the coil unit 820, and a magnetic field may be formed around the coil unit 820 when a current flows through the coil unit 820.

The coil portion 820 may have various shapes, for example, the coil portion 820 may have a shape in which a plurality of circuit wires are wound, and may control the number of times of winding and the like variously.

The coil portion 820 may be formed in a shape having a space 820a therein, for example, the coil portion 820 may have a space 820a in the coiled shape. The magnetic force portion 870 and the support portion 860 may be disposed in the space 820a.

The magnetic force portion 870 can be disposed adjacent to the coil portion 820 and when a current flows in the coil portion 820 and a magnetic field is generated around the coil portion 820, For example, you can get enough power to exercise.

The magnetic force portion 870 may have various configurations and may be arranged to overlap with the space 820a of the coil portion 820 and may be arranged to overlap with the space 820a of the coil portion 820 at a certain point, As shown in FIG.

One portion of the magnetic force portion 870 may overlap with the space 820a of the coil portion 820 when the magnetic force portion 870 moves under the force of the magnetic field around the coil portion 820. [

The moving part 810 may include a body member 811, a connecting member 813, a groove 815, and an extending member 840. The body member 811 may be formed so as to be connected to the expression unit 830 and to correspond to at least one region on both sides or the periphery of the expression unit 830 and to depart from the expression unit 830. [

The body member 811 may include one area overlapping with the presentation unit 830 and one area beyond the presentation unit 830 without overlapping.

As an alternative embodiment, the body member 811 may be formed to surround one region of the expression unit 830 as shown in Figs. 13 to 15, and may have a boundary line of a curve, .

The connecting member 813 may be arranged below the body member 811. [ That is, the connecting member 813 is disposed between the body member 811 and the magnetic force portion 870 and can be connected to the magnetic force portion 870.

The connecting member 813 may be connected to the body member 811 and have a bent shape from the body member 811. [ The connecting member 813 may have a plane shape corresponding to the upper surface of the magnetic force portion 870 and may be in contact with the magnetic force portion 870 therethrough.

The groove 815 may be formed so as to correspond to the opposite surface of the surface of the connecting member 813 facing the magnetic portion 870. The groove 815 can accommodate the receiving area 830a, which is one area of the displaying unit 830, facing the displaying unit 830. [ The expression unit 830 can be stably fixed.

The extension member 840 may be formed to support the body member 811 and may have a shape that is connected to the body member 811 and extends from the body member 811. [

15, and as in the embodiment of FIG. 6 described above, the body member 811 may be formed so as to protrude from one side of the expression unit 830 and a side opposite to the expression unit 830, And may have a boundary line similar to an arc.

And the extension member 840 may be formed to fill the space between these body members 811. [

In this embodiment, the body member 811 and the extending member 840 can be formed of different materials. For example, the body member 811 may contain a magnetic material and may include an alloy material of iron, nickel, or stainless steel series. The body member 811 and the connecting member 813 can be made to contain a magnetic substance, and the body member 811 and the connecting member 813 can be integrally formed.

When the body member 811 includes a magnetic body, the efficiency of motion during motion due to the magnetic field around the nose portion can be improved by being connected to the magnetic force portion. Also, when the connecting member 813 is formed of a magnetic material, the driving force of the motion of the moving part 810 can be increased by being connected to the magnetic part 870.

The extension member 840 can be formed of a lightweight material having excellent durability, and can be formed of, for example, an inorganic insulator or an organic insulator. As a specific example, a resin-based material may be included. As a specific example, the extension member 840 may be formed of the same material as the expression unit 830 and may be integrally formed with the expression unit 830.

As another alternative embodiment, the elongated member 840 may be formed of the same material as the magnetic or body member 811. [

The supporting portion 860 may be formed to be connected to the moving portion 810. The support portion 860 may be disposed so as to face the opposite surface of the surface of the moving part 810 facing the presentation part 830. As an alternative embodiment, the support portion 860 may be connected to the body member 811, the connecting member 813 and the extension member 840.

The support portion 860 may have a hollow shape and may have a space portion 860a therein. The magnetic portion 870 can be accommodated in the space portion 860a.

The support portion 860 may be arranged to correspond to the space 820a of the coil portion 820. [ That is, in the stopped state of the moving part 810, the supporting part 860 is disposed in the space 820a of the coil part 820, and at least one area of the supporting part 860 during the movement of the moving part 810, And may be disposed in the space 820a.

The moving part 810 is connected to the supporting part 860 so that the moving part 810 can be spaced apart from the coil part 820 with an interval d2. Such an interval d2 may increase during movement of the moving part 810. [ The support portion 860 also moves together during the movement of the movement portion 810, that is, the movement with the magnetic portion 870, and as an alternative, the support portion 860 may be disposed to be spaced apart from the coil portion 820. The support portion 860 can be smoothly moved without being disturbed by the coil portion 820 during the movement.

As an alternative embodiment, the support portion 860 may have a hollow column shape elongated in the direction opposite to the expression portion 830 and may be formed on one side of the information output device, for example, an upper surface of a first base 801 .

As an alternative embodiment, there may be a spacing region SA in the space 860a inside the support 860 that does not overlap with the magnetic portion 870. [

The magnetic force portion 870 may be spaced apart from the first base 801, which will be described later, with an interval L. [ That is, the magnetic force portion 870 may have a distance L as a minimum distance between the magnetic force portion 870 and the first base 801 during exercise.

The support portion 860 can be formed of various materials, and can be formed of a material having excellent durability. For example, the support portion 860 may be formed of an insulating material. For example, the support portion 860 may contain a resin-based organic material. As another example, the support portion 860 may include an inorganic material such as a ceramic material.

The support portion 860 may be formed of the same material as the extension member 840 and the support portion 860, the extension member 840 and the expression portion 830 may be formed of the same material as the alternative embodiment can do. For example, the support portion 860, the extending member 840, and the expression portion 830 may be integrally formed.

The expression unit 830 may be formed to be connected to the motion unit 810. For example, the expression unit 830 may have a shape protruding in one direction from the motion unit 810. As a specific example, the expression unit 830 may have a column shape in one area. The edge of the presentation portion 830, that is, the region of the presentation portion 830 far from the movement portion 810, can be processed so as to have a curved surface.

The expression unit 830 is connected to the motion unit 810 and can move together with the motion of the motion unit 810. For example, the expression unit 830 can move in one direction along the length direction and in the opposite direction.

The expression unit 830 may include various materials, and may be formed of an insulating material as a light and durable material. For example, a resin-based organic material. As another example, an inorganic material such as a ceramic material may be included.

The coil portion 820, the magnetic force portion 870 and the moving portion 810 can be disposed between the first base 801 and the second base 802 and the expression portion 830 can be disposed between the first base 801 and the second base 802, One area is disposed between the first base and the second base 802, and the other area is disposed overlapping with the second base 802.

A coil base 820 is disposed on the first base 801 so that the first base 801 can support the coil base 820. For example, the coil part 820 is arranged so as to be in contact with the first base 801, a current flows in the coil part 820, and a magnetic field is generated. When the magnetic part 870 moves, The first base 801 and the coil part 820 can be held in contact with the first base 801 and an adhesive, welding or various joining members may be used as an alternative embodiment so that the first base 801 and the coil part 820 are stably coupled.

As an alternative embodiment, a buffer layer may be formed between the first base 801 and the coil part 820.

When the magnetic force portion 870 is disposed on the first base 801, the magnetic force portion 870 may be spaced apart from the first base 801 by an interval L. That is, the magnetic force portion 870 may have a distance L as a minimum distance between the magnetic force portion 870 and the first base 801 during exercise.

The first base 801 may contain various materials, for example, may contain a magnetic material, and may include an alloy material of iron, nickel, or stainless steel series.

The first base 801 contains a magnetic substance and improves the efficiency of the movement of the magnetic portion 870 in the direction toward the first base 801 during the movement of the magnetic portion 870, The power consumption of the output device can be reduced.

The second base 802 is disposed so as to face the first base 801. The second base 802 may include a penetration portion 802a and the expression portion 830 may move through the penetration portion 802a. In other words, the expression unit 830 connected to the motion unit 810 through the motion of the motion unit 810 can move in one direction or the opposite direction. At this time, the expression unit 830, which is protruded to the outside of the second base 802 through the penetration unit 802a And the like.

The penetration portion 802a of the second base 802 may be spaced apart from the presentation portion 830 or may be spaced apart from at least one region to facilitate the movement of the presentation portion 830. [

The width of the moving part 810 in at least one direction may be greater than the width of the through part 802a of the second base 802. [ As another example, the moving part 810 may have a larger area than the penetrating part 802a of the second base 802. [

At least one region of the moving unit 810 may have a region overlapping with the second base 802 and may include regions of the moving unit 810 on both sides of the presentation unit 830, As a specific example, the area around the expression unit 830 in the area of the motion unit 810 may overlap with the second base 802. [

The gap between the moving part 810 and the second base 802 can be narrowed through the movement of the moving part 810 in one direction, for example, with reference to FIG. 13, and the movement in the opposite direction, for example, The gap between the moving part 810 and the second base 802 may be distanced by a downward movement with reference to FIG.

The movement of the moving part 810 through the second base 802, for example, in the direction toward the second base 802, can be restricted. That is, the protrusion of the moving part 810 through the penetrating part 802a of the second base 802 may be restricted.

The second base 802 may contain various materials, for example, may contain a magnetic material, and may include an alloy material of iron, nickel, or stainless steel series.

When the second base 802 contains a magnetic body and the aforementioned moving part 810 contains a magnetic material, the movement of the moving part 810 in one direction, that is, the movement of the moving part 810 during the upward movement with reference to FIG. The efficiency can be improved and the power consumption of the information output apparatus can be reduced.

Although not shown, the first base 801 or the second base 802 may be formed to extend to correspond to a plurality of information output modules.

The intermediate member 850 may be disposed between the second base 802 and the moving part 810. The impact of the second base 802 and the moving part 810 can be reduced through the intermediate member 850 during the movement of the moving part 810. The intermediate member 850 may be formed of various materials, for example, a material having elasticity.

The intermediate member 850 may be formed so as to be in contact with the moving part 810 and the second base 802 and the intermediate member 450 may be formed of a material having elasticity and may be formed of a material, May vary.

The intermediate member 850 can be formed on the moving part 810 and the intermediate member 850 can be disposed to be spaced from the second base 802 and can be arranged in such a manner that during the movement of the moving part 810, The spacing can be reduced.

Alternatively, the intermediate member 850 may be formed on the second base 802 and be spaced apart from the moving part 810 before the motion of the moving part 810 as an alternative embodiment.

As an alternative embodiment, the information output apparatus 800 of the present embodiment may further include a cover portion 890. [ The cover portion 890 may be disposed to cover the upper portion of the second base 802 and may be disposed to face the opposite surface of the surface of the second base 802 facing the moving portion 810, have. The cover portion 890 can be arranged to protect the second base 802 and members below it.

The cover portion 890 may have a penetration portion 890a corresponding to the expression portion 830 during exercise of the expression portion 830. [

16A and 16B are views for explaining the operation of the information output apparatus of FIG. 12 as an example.

As shown in Figs. 16A and 16B, the expression unit 830 can perform a movement in one direction and the opposite direction, for example, up and down movement.

The states of Figs. 16A and 16B may be such that different currents flow through the coil portion 820. Fig. For example, in FIG. 16A, no current flows through the coil section 820, and in FIG. 16B, current flows through the coil section 820. In FIG.

Specifically, when a current flows through the coil section 820 through a power source section (not shown), a magnetic field is formed around the coil section 820. The magnetic field section 870 can move due to the magnetic field, And the expression unit 830 moves in the same direction as the direction of the motion unit 810. The motion unit 810, At this time, the support portion 860 together with the motion portion 810 can also move in the same direction.

The predetermined distance d2 between the moving part 810 and the coil part 820 can be increased by the motion of the moving part 810. [

The support portion 860 and the first base 801 may be provided between the support portion 860 and the upper surface of the second base 802 by movement of the support portion 860 together with the moving portion 810 as shown in FIG. The distance d between the first and second ends may occur.

The intermediate member 850 having a first thickness t1 disposed in contact with the moving unit 810 and the second base 802 before the motion of the moving unit 810 is moved in the one direction of the moving unit 810, I.e., a second thickness t2 that is less than the first thickness t1. Further, when the movement in the direction opposite to the moving part 810, for example, the state shown in Fig. 16A, the intermediate member 850 can maintain the first thickness t1 again.

At this time, as an optional embodiment, the body member 811 of the moving part 810 and the connecting member 813 as an optional embodiment may contain a magnetic substance to improve the efficiency of movement of the moving part 810. [

In addition, the second base 802 may include a magnetic material to improve the efficiency of motion through the magnetic force between the moving unit 810 and the second base 802, and to reduce the power consumption of the information output apparatus 800.

The magnitude and speed of the motion of the expression unit 830 can be controlled in various ways, for example, by controlling the intensity of the current flowing through the coil unit 820.

Figs. 17A and 17B are views for explaining the operation of the modified example of the information output apparatus of Fig. 12 by way of example.

17A and 17B, the information output apparatus 800 'of the present embodiment includes at least one information output unit IU2.

The information output unit IU2 of the information output apparatus 800 'includes a coil portion 820', a magnetic portion 870 ', a moving portion 810', a displaying portion 830 ', an intermediate member 850' A first base 801 ', a second base 802', and a placement portion 880 '. For convenience of explanation, the information output apparatus 800 of the embodiment will be mainly described.

The arrangement portion 880 'of this embodiment can be formed so as to be able to dispose the coil portion 820'. Specifically, the positioning portion 880 'may include a protruding region 881' and a supporting region 882 '.

The protruding region 881 'has a shape derived from the support region 882' in the direction toward the second base 802 'and has at least an inner portion in which the magnetic portion 870' and the support portion 860 ' You can have space.

As an alternative embodiment, the inner circumferential surface of the protruding region 881 'may be spaced apart from the support portion 860'.

The coil portion 820 'may be disposed around the protruding region 881' and the coil portion 820 may be disposed around the protruding region 881 '. The space 820'a inside the coil part 820 'may correspond to the periphery of the protrusion area 881'.

The support area 882 'may be formed on the first base 801'. As an alternative embodiment, the base area 882 'and the protrusion area 881' may be integrally formed.

As another example, the base area 882 'may be formed integrally with the first base 801'.

The top end of the coil portion 820 'may reach the top end of the protruding region 881'. As another example, the top end of the coil portion 820 'may not reach the top end of the protruding region 881'.

The coil portion 820 'can be easily arranged and held via the arrangement portion 880'. In addition, it is possible to control interference between the support portion 860 'and the coil portion 820'. Thereby limiting or preventing contact or limitation by the coil portion 820 'during movement of the support portion 860'.

Also, it is possible to prevent or reduce the nose portion 820 'from being damaged, deformed or detached.

Although not shown, the arrangement unit 880 'can be selectively applied to the information output apparatus of the above-described embodiments.

The magnetic force portion 870 'may be disposed in the space portion 860'a of the support portion 860'.

The moving part 810 'may include a body member 811', a connecting member 813 ', a groove 815', and an extension member (not shown).

The second base 802 'may have a penetration portion 802'a, and may further include a cover portion 890' as an alternative embodiment.

Other specific configurations are the same as or similar to those of the above-described embodiment, and thus a detailed description thereof will be omitted.

The information output apparatus 800, 800 'of the above-described embodiment may include one or more information output units, and the presentation unit of the information output unit may be connected to the motion unit and move in one direction or the opposite direction. Through the expression unit, various information that the user can perceive can be outputted.

For example, the information output apparatus 800, 800 'of the present embodiment may be an information output apparatus in which the user senses the surface of the presentation unit through a tactile angle when the presentation unit protrudes. More specifically, it may be, for example, information output in the form of braille output.

As an alternative embodiment, the information output device 800, 800 'may be a vision-sensitive information output as the user senses it through the time when the presentation portion protrudes. This visual effect can be increased particularly when the color is formed on one side of the expression part, for example, the upper side, or light is generated on one side of the expression part.

Accordingly, the information output apparatus of this embodiment can output information to the user, and as an alternative embodiment, when the information output apparatus of this embodiment includes a plurality of information output units, various information can be output to the user.

As an alternative embodiment, the motion part may include a magnetic material, thereby improving the motion characteristics of the motion part and the power consumption reduction characteristics of the information output device.

Further, it is possible to effectively support the coil portion including the first base, and as another example, the first base can include the magnetic material, thereby improving the efficiency of the movement of the magnetic portion.

In addition, the range of motion of the motion part including the second base can be eliminated, and as another example, the second base can include the magnetic material, thereby improving the efficiency of motion of the motion part.

In addition, the intermediate member may be formed on the motion portion to reduce or prevent the impact on the motion portion of the motion portion from being transmitted to the motion portion or, as an alternative, to the second base. Accordingly, it is possible to reduce deformation or breakage of each member and reduce unnecessary movement such as vibration during motion of the moving part, thereby facilitating accurate motion control.

In addition, the supporting portion may be formed to be adjacent to the moving portion, and the magnetic force portion may be disposed inside the supporting portion so that the moving direction of the magnetic force portion is uniform. Further, contact between the moving part and the coil part can be restricted through the supporting part. It is possible to control the precise movement of the moving part by restricting the contact with the coil part during the movement of the moving part, and it is possible to reduce or prevent unnecessary movement or jarring of the coil part.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art . Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

The specific implementations described in the embodiments are, by way of example, not intended to limit the scope of the embodiments in any way. For brevity of description, descriptions of conventional electronic configurations, control systems, software, and other functional aspects of such systems may be omitted. Also, the connections or connecting members of the lines between the components shown in the figures are illustrative of functional connections and / or physical or circuit connections, which may be replaced or additionally provided by a variety of functional connections, physical Connection, or circuit connections. Also, unless explicitly mentioned, such as "essential "," importantly ", etc., it may not be a necessary component for application of the present invention.

The use of the terms "above" and similar indication words in the description of the embodiments (in particular in the claims) may refer to both singular and plural. In addition, in the embodiment, when a range is described, it includes the invention to which the individual values belonging to the above range are applied (if there is no description to the contrary), the individual values constituting the above range are described in the detailed description . Finally, the steps may be performed in an appropriate order, unless explicitly stated or contrary to the description of the steps constituting the method according to the embodiment. The embodiments are not necessarily limited to the description order of the steps. The use of all examples or exemplary terms (e.g., etc.) in the examples is for the purpose of describing the embodiments in detail and is not intended to be limited by the scope of the claims, It is not. It will also be appreciated by those skilled in the art that various modifications, combinations, and alterations may be made depending on design criteria and factors within the scope of the appended claims or equivalents thereof.

100, 200, 300, 400, 500, 600, 700, 800: information output device
110, 210, 310, 410, 510, 610, 710, 810:
120, 220, 320, 420, 520, 620, 720, 820:
170, 270, 370, 470, 570, 670, 770, 870:
130, 230, 330, 430, 530, 630, 730, 830:

Claims (12)

An information output apparatus including at least one information output unit,
The information output unit includes:
A first base;
A second base disposed to face the first base and having a penetrating portion;
A coil portion disposed between the first and second bases and having a space therein;
A magnetic force portion disposed adjacent to the coil member;
A moving part disposed between the first base and the second base and disposed between the coil part and the second base; And
And a display unit connected to the motion unit and formed in a protruded form from the motion unit, the display unit being disposed to be able to be detected by the user at a position corresponding to the penetration unit of the second base according to the movement of the motion. The method according to claim 1,
And the magnetic force portion moves in a region overlapping with a space inside the coil portion. The method according to claim 1,
Further comprising an intermediate member formed between the second base and the motion portion so as not to restrict the movement of the presentation portion. The method according to claim 1,
And a buffer layer formed between the first base and the coil part. The method according to claim 1,
Wherein the magnetic force portion, the motion portion, and the expression portion simultaneously move. The method according to claim 1,
Wherein the moving part is formed to contain a magnetic substance in at least one area. The method according to claim 1,
Wherein the motion portion includes a body member and a connection member connected to the body member and connected to the magnetic force portion. 8. The method of claim 7,
Further comprising a support portion connected to a surface of the motion portion opposite to a surface connected to the expression portion,
Wherein at least one region of the support portion is arranged to correspond to a space inside the coil portion. 9. The method of claim 8,
Wherein the support portion has a space portion therein,
And the magnetic force portion is disposed in the space portion of the support portion. 10. The method of claim 9,
Wherein the magnetic force portion overlaps with one region of the space portion of the support portion and is disposed so as to overlap with another region. 9. The method of claim 8,
Wherein the support part moves together with the movement part when the movement part is in motion. The method according to claim 1,
Wherein the information output apparatus includes a plurality of information output units,
Wherein the plurality of information output units are arranged to be spaced apart from each other in one direction or another direction.

Images